EP0868052A1 - Redundant transmission system with avoidance of cell repetitions - Google Patents

Abstract

The method is applied to a system including a Line Interface Circuit Input (LICI) and two redundant asynchronous switching networks (ASN0,ASN1) leading to a Redundant Path Combination buffer. When message cells are received a window is established to block cells with sequence numbers lower than that of the last cell selected for further processing. The result is an exclusion of lower-numbered cells from such selection, so that repetition of cells is avoided and in the event of switching between transmission paths there is a minimal loss of cells.

Description

The subject of the application relates to a procedure according to The preamble of claim 1. Such a method is known known from EP-0384936, EP-0453606 or EP-0453607.

In the case of ATM (Asynchronous Transfer Mode) transmission, the Order of the message cells that a virtual connection Belong to comply. To indicate the order the message cells keep a cyclically continuous assigned sequence number in a field for the sequence number with yourself. The distinguishable sequence numbers of one virtual connection set a message cell follow cycle firmly. To maintain a specified loss probability parallel forwarding, Connection via redundant transmission paths required be. In the receiving device is among the redundant transmitted message cells only one in the order selected as the next expected message cell. From the EP-0384936, EP-0453606 or EP-0453607 algorithms are known, where every message cell that is on the instant as the last one accepted for further processing Message cell is the next message cell and each Message cell that is on the same transmission path (more active Transmission route) like the one currently being the last one for further processing received message cell arrives for further processing Is accepted. It is only for message cells, those who are currently the last ones for further treatment assumed message cell next message cell the order of the message cells is ensured. Message cells missing on the active transmission path, the not by timely on the not - active transmission path incoming message cells replaced can be skipped. With the known Algorithms can lead to a forwarding in the order of scrambled stream of message cells, transmitted by the active transmission path. It was also possible to switch to a different transmission path a repetition of message cells until Number of a message cell sequence cycle occur. A repetition of message cells caused by switching was able to do so by temporarily blocking the flow of Message cells are largely excluded, however with a correspondingly high loss of message cells goes along.

The subject of the registration is the problem for a Transmission system in which redundant message cells over redundant transmission paths are transmitted, a process specify when repeating message cells that Occurrence of errors in the order of message cells and the loss of message cells when switching over significantly are reduced.

The problem is caused by the characteristics of the characteristic part of claim 1 solved.

The procedure according to the application defines a lock window, whereby message cells, in particular outdated message cells, whose sequence numbers fall in the lock window, not be accepted for further processing. The registration The procedure limits the possible jumps in the selection of Sequence numbers to an area within which the occurrence expected from message cells with a valid sequence number becomes. The procedure according to the application brings in a switch to a transmission path that was not previously active avoiding repetition of message cells with the least possible loss of Message cells with it. Too big a loss of The temporary lock leading to message cells is in the process of switching avoided.

A special development of the subject of registration is given that the value of the fixed amount (s) essentially half the number of cycles from a message cell covered message cells. This Measure brings a favorable ratio of to further treatment assumed message cells to block repeated message cells with it.

Figur 1

eine schematische Darstellung einer Vermittlungseinrichtung, die nach einem asynchronen Übertragungsverfahren weitergeleitete Nachrichtenzellen über redundante Übertragungswege durchschaltet

Figur 2

eine prinzipielle Darstellung einer Nachrichtenzelle

Figur 3

eine graphische Darstellung eines Sperrfensters.

The subject matter of the application is described in more detail below as an exemplary embodiment to the extent necessary for understanding with reference to figures. Show:

Figure 1

is a schematic representation of a switching device that connects forwarded message cells via redundant transmission paths according to an asynchronous transmission method

Figure 2

a basic representation of a message cell

Figure 3

a graphical representation of a lock window.

The switching device shown in Figure 1 has on the input side an input device LICI (for: Line Interface Circuit Input) on the course of virtual connections according to an asynchronous transmission method, in particular the ATM (Asynchronous Transfer Mode) process transmitted message cells are fed. For example 8192 virtual connections are given.

A message cell shown in FIG. 2 has a fixed length and is formed with a useful data part DATA and a message cell header HEAD preceding it. The user data part may be 48 bytes long and the message cell header 5 bytes long. The message cell header has target information VPI (Virtuel Path Identifier) / VCI (Virtuel Channel Identifier), which belongs to the message cell as a virtual connection and which specifies the recipient. When a message cell arrives in the input device, the destination information of the message cell is fed to a conversion device HTT (for: header translation table) which, in accordance with the destination information, causes switching information ROUT (for: routing) to be added to the message cell. The switching information indicates the output of the switching device to which the message cell is to be switched through via a switching network disk ASN (for: Asynchronous Switching Network). To maintain a predefined loss probability of, for example, 10 ^-9 , a parallel connection through redundant switching matrix disks may be required. The switching device has two mutually redundant switching network disks ASN0, ASN1, which form redundant transmission paths. In the input device, the message cells are multiplied according to the number of switching matrix disks, in the exemplary embodiment a doubling, to form a group of message cells of the same content. A message cell has a sequence number which is cyclically continuously allocated for successive message cells belonging to a virtual connection. The sequence numbers may be assigned to the message cells in the ascending direction. The distinguishable sequence numbers SNmax (for: sequence number maximum) of a virtual connection define a message cell sequence cycle NZZ. The message cells of a group have the same sequence number. One message cell from a group of message cells is switched through to the relevant output via the redundant switching matrix disks.

The redundant coupling devices have at their outputs large memory for buffering message cells. Between mutually redundant message cells that the selector are fed from the coupling devices, there may be a phase shift. To avoid order errors between the same virtual connection associated message cells is the duration of a message cell subsequent cycle ' larger than the maximum expected Difference in transit time between the transmission paths.

The message cells emitted by the redundant switching matrix disks are provided by an output device LICO (for: Line Interface Circuit Output) received. In the exit facility the received message cells are faulty checked. This can be done by checking parity bits be given. Message cells found to be incorrect are discarded. The output device has a Selection device RPC (for: Redundant Path Combination) from a group of received errors Message cells selects only one message cell and processes them further. The further processing may be through a forwarding removed via an RPC buffer and a line to one arranged device be given.

When forwarding message cells using the ATM transmission method is for a virtual connection Order of the message cells.

The selection device has a storage device random access RAM (for: random access memory) on the one memory line for each virtual connection VC1, VC2, .., VCn having. There is space in the memory line for storage the sequence number SL for the virtual in question Connection of last forwarded message cell reserved. Next is in the memory line for each connection reserves a memory location that designates the transmission path, via which they are currently the last to be forwarded selected message cell of the connection concerned was transferred. The content of the storage space there so the currently active transmission path.

The selection device checks whether an incoming Message cell is the one for the virtual one in question Connect the message cell forwarded to the last one is to be forwarded next. To do this a recombination algorithm in the memory line for the sequence number stored in the virtual connection concerned and the content of the storage space. The investigation the next following message cell can advantageously in that the stored sequence number of the last forwarded message cell is incremented and the sequence number of a message cell that has just been switched through is compared with the incremented sequence number. The determination of the next following is limited Message cell in a simple manner Comparison of sequence numbers.

Generally, it will be the first in the output facility incoming message cell of a group of message cells forwarded. A news cell that later in the The selection device arrives as belonging to the same group Message cell previously selected for forwarding is discarded. Special recombination algorithms to determine each for a virtual connection next message cell to be forwarded are, for example known from EP-0384936, EP-0453606 or EP-0453607.

3 shows two successive message cell sequence cycles NZZm and NZZm + 1. The sequence number SL of the last message cell selected for further processing may just form the boundary between the message cell subsequent cycles. The sequence number SL of the message cell currently selected as the last for further processing and a sequence number which has a value reduced by a fixed amount n compared to this sequence number SL form the limits of a window shown as a hatched rectangle. The window runs with the sequence number SL of the currently selected message cell for further processing. Message cells whose sequence number s the condition (SL - n) <s ≤ SL suffice and fall into the window are excluded from the acceptance for further processing.

The number of sequence numbers included in the window may be half the number of sequence numbers SNmax included in a message cell sequence cycle. The choice of the size of the window also influences the area within which the permissible sequence numbers of message cells that can be selected for further processing lie. The range lies between the sequence number SL of the message cell currently selected as the last for further processing and the window shown in dashed lines for the next message cell sequence cycle NZZm + 1 in the future and meets the condition SL + (SNmax - n). Starting from the sequence number SL of the message cell currently selected as the last for further processing, forward jumps with regard to the sequence number are limited to message cells whose sequence numbers fall within this range.

An equivalent description of the subject of the application is given that only the message cells for further treatment can be selected in the area SL + (SNmax - n) fall.

Otherwise, by continuously evaluating the content of the Storage space, which designates the transmission path over which the one currently selected as the last one to be forwarded Message cell of the connection in question was transmitted, for example with the help of a separate algorithm a determination of the error rate, which is not described here a transmission path.

The redundant transmission system is in operation from a transmission path designated as active, via which the one currently selected as the last one to be forwarded Message cell of the connection in question was transmitted, switchable to another transmission path. A switchover can, for example, in response to an achievement a predetermined error rate or the detection of a Failure of the currently activated transmission path respectively. The switch can be made by one of the output devices assigned board controller.

The subject of the application became partially the simpler and for the sake of clarity, only for two transmission paths presented what the teaching taught for Transmission systems with a larger number of transmission paths not limited.

Claims (2)

Accordingly, methods for avoiding sequence errors of message cells and / or for avoiding repetitions of message cells in a transmission system in which redundant message cells are transmitted via redundant transmission paths the message cells of a virtual connection are assigned cyclically assigned, sequentially increasing sequence numbers Message cells which belong to a virtual connection and which are designated by successive, distinguishable sequence numbers form a message cell sequence cycle a message cell is multiplied into a group of mutually redundant message cells, the number of which equals the number of redundant transmission paths one of mutually redundant message cells is transmitted via the redundant transmission paths in accordance with the sequence numbers carried by the message cells, only one redundant message cell, which is the next to the message cell which is currently the last one processed, is selected for further processing,
characterized in that the window delimits the sequence number (SL) of the message cell which is currently the last processed message cell and a sequence number which has a value which is reduced by a fixed amount (s) compared to this sequence number (SL) an instantaneously arriving message cell whose sequence number (s) falls into the window is excluded from the selection for further processing. The method of claim 1
characterized in that
the value of the fixed amount (n) is substantially equal to half the number of message cells covered by a message cell subsequent cycle.

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